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inception_v4.py
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inception_v4.py
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import caffe
from caffe import layers as L
from caffe import params as P
def fc_relu_drop(bottom, num_output=1024, dropout_ratio=0.5):
fc = L.InnerProduct(bottom, num_output=num_output,
param=[dict(lr_mult=1, decay_mult=1), dict(lr_mult=2, decay_mult=0)],
weight_filler=dict(type='xavier', std=1),
bias_filler=dict(type='constant', value=0.2))
relu = L.ReLU(fc, in_place=True)
drop = L.Dropout(fc, in_place=True,
dropout_param=dict(dropout_ratio=dropout_ratio))
return fc, relu, drop
def factorization_conv_bn_scale_relu(bottom, num_output=64, kernel_size=3, stride=1, pad=0):
conv = L.Convolution(bottom, num_output=num_output, kernel_size=kernel_size, stride=stride, pad=pad,
param=[dict(lr_mult=1, decay_mult=1), dict(lr_mult=2, decay_mult=0)],
weight_filler=dict(type='xavier', std=0.01),
bias_filler=dict(type='constant', value=0.2))
conv_bn = L.BatchNorm(conv, use_global_stats=False, in_place=True)
conv_scale = L.Scale(conv, scale_param=dict(bias_term=True), in_place=True)
conv_relu = L.ReLU(conv, in_place=True)
return conv, conv_bn, conv_scale, conv_relu
def factorization_conv_mxn(bottom, num_output=64, kernel_h=1, kernel_w=7, stride=1, pad_h=3, pad_w=0):
conv_mxn = L.Convolution(bottom, num_output=num_output, kernel_h=kernel_h, kernel_w=kernel_w, stride=stride,
pad_h=pad_h, pad_w=pad_w,
param=[dict(lr_mult=1, decay_mult=1), dict(lr_mult=2, decay_mult=0)],
weight_filler=dict(type='xavier', std=0.01),
bias_filler=dict(type='constant', value=0.2))
conv_mxn_bn = L.BatchNorm(conv_mxn, use_global_stats=False, in_place=True)
conv_mxn_scale = L.Scale(conv_mxn, scale_param=dict(bias_term=True), in_place=True)
conv_mxn_relu = L.ReLU(conv_mxn, in_place=True)
return conv_mxn, conv_mxn_bn, conv_mxn_scale, conv_mxn_relu
def stem_v4_299x299(bottom):
"""
input:3x299x299
output:384x35x35
:param bottom: bottom layer
:return: layers
"""
conv1_3x3_s2, conv1_3x3_s2_bn, conv1_3x3_s2_scale, conv1_3x3_s2_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=32, kernel_size=3, stride=2) # 32x149x149
conv2_3x3_s1, conv2_3x3_s1_bn, conv2_3x3_s1_scale, conv2_3x3_s1_relu = \
factorization_conv_bn_scale_relu(conv1_3x3_s2, num_output=32, kernel_size=3, stride=1) # 32x147x147
conv3_3x3_s1, conv3_3x3_s1_bn, conv3_3x3_s1_scale, conv3_3x3_s1_relu = \
factorization_conv_bn_scale_relu(conv2_3x3_s1, num_output=64, kernel_size=3, stride=1, pad=1) # 64x147x147
inception_stem1_pool = L.Pooling(conv3_3x3_s1, kernel_size=3, stride=2, pool=P.Pooling.MAX) # 64x73x73
inception_stem1_3x3_s2, inception_stem1_3x3_s2_bn, inception_stem1_3x3_s2_scale, inception_stem1_3x3_s2_relu = \
factorization_conv_bn_scale_relu(conv3_3x3_s1, num_output=96, kernel_size=3, stride=2) # 96x73x73
inception_stem1 = L.Concat(inception_stem1_pool, inception_stem1_3x3_s2) # 160x73x73
inception_stem2_3x3_reduce, inception_stem2_3x3_reduce_bn, inception_stem2_3x3_reduce_scale, \
inception_stem2_3x3_reduce_relu = \
factorization_conv_bn_scale_relu(inception_stem1, num_output=64, kernel_size=1) # 64x73x73
inception_stem2_3x3, inception_stem2_3x3_bn, inception_stem2_3x3_scale, inception_stem2_3x3_relu = \
factorization_conv_bn_scale_relu(inception_stem2_3x3_reduce, num_output=96, kernel_size=3) # 96x71x71
inception_stem2_7x1_reduce, inception_stem2_7x1_reduce_bn, inception_stem2_7x1_reduce_scale, \
inception_stem2_7x1_reduce_relu = \
factorization_conv_bn_scale_relu(inception_stem1, num_output=64, kernel_size=1) # 64x73x73
inception_stem2_7x1, inception_stem2_7x1_bn, inception_stem2_7x1_scale, inception_stem2_7x1_relu = \
factorization_conv_mxn(inception_stem2_7x1_reduce, num_output=64, kernel_h=7, kernel_w=1, pad_h=3,
pad_w=0) # 64x73x73
inception_stem2_1x7, inception_stem2_1x7_bn, inception_stem2_1x7_scale, inception_stem2_1x7_relu = \
factorization_conv_mxn(inception_stem2_7x1, num_output=64, kernel_h=1, kernel_w=7, pad_h=0, pad_w=3) # 64x73x73
inception_stem2_3x3_2, inception_stem2_3x3_2_bn, inception_stem2_3x3_2_scale, inception_stem2_3x3_2_relu = \
factorization_conv_bn_scale_relu(inception_stem2_1x7, num_output=96, kernel_size=3) # 96x71x71
inception_stem2 = L.Concat(inception_stem2_3x3, inception_stem2_3x3_2) # 192x71x71
inception_stem3_3x3_s2, inception_stem3_3x3_s2_bn, inception_stem3_3x3_s2_scale, inception_stem3_3x3_s2_relu = \
factorization_conv_bn_scale_relu(inception_stem2, num_output=192, stride=2) # 192x35x35
inception_stem3_pool = L.Pooling(inception_stem2, kernel_size=3, stride=2, pool=P.Pooling.MAX) # 192x35x35
inception_stem3 = L.Concat(inception_stem3_3x3_s2, inception_stem3_pool) # 384x35x35
return conv1_3x3_s2, conv1_3x3_s2_bn, conv1_3x3_s2_scale, conv1_3x3_s2_relu, conv2_3x3_s1, conv2_3x3_s1_bn, \
conv2_3x3_s1_scale, conv2_3x3_s1_relu, conv3_3x3_s1, conv3_3x3_s1_bn, conv3_3x3_s1_scale, conv3_3x3_s1_relu, \
inception_stem1_3x3_s2, inception_stem1_3x3_s2_bn, inception_stem1_3x3_s2_scale, inception_stem1_3x3_s2_relu, \
inception_stem1_pool, inception_stem1, inception_stem2_3x3_reduce, inception_stem2_3x3_reduce_bn, \
inception_stem2_3x3_reduce_scale, inception_stem2_3x3_reduce_relu, inception_stem2_3x3, \
inception_stem2_3x3_bn, inception_stem2_3x3_scale, inception_stem2_3x3_relu, inception_stem2_7x1_reduce, \
inception_stem2_7x1_reduce_bn, inception_stem2_7x1_reduce_scale, inception_stem2_7x1_reduce_relu, \
inception_stem2_7x1, inception_stem2_7x1_bn, inception_stem2_7x1_scale, inception_stem2_7x1_relu, \
inception_stem2_1x7, inception_stem2_1x7_bn, inception_stem2_1x7_scale, inception_stem2_1x7_relu, \
inception_stem2_3x3_2, inception_stem2_3x3_2_bn, inception_stem2_3x3_2_scale, inception_stem2_3x3_2_relu, \
inception_stem2, inception_stem3_3x3_s2, inception_stem3_3x3_s2_bn, inception_stem3_3x3_s2_scale, \
inception_stem3_3x3_s2_relu, inception_stem3_pool, inception_stem3
def inception_v4_a(bottom):
"""
input:384x35x35
output:384x35x35
:param bottom: bottom layer
:return: layers
"""
pool_ave = L.Pooling(bottom, kernel_size=3, stride=1, pad=1, pool=P.Pooling.AVE) # 384x35x35
conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu = \
factorization_conv_bn_scale_relu(pool_ave, num_output=96, kernel_size=1) # 96x35x35
conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, conv_1x1_2_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=96, kernel_size=1) # 96x35x35
conv_3x3_reduce, conv_3x3_reduce_bn, conv_3x3_reduce_scale, conv_3x3_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=64, kernel_size=1) # 64x35x35
conv_3x3, conv_3x3_bn, conv_3x3_scale, conv_3x3_relu = \
factorization_conv_bn_scale_relu(conv_3x3_reduce, num_output=96, kernel_size=3, pad=1) # 96x35x35
conv_3x3_2_reduce, conv_3x3_2_reduce_bn, conv_3x3_2_reduce_scale, conv_3x3_2_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=64, kernel_size=1) # 64x35x35
conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, conv_3x3_2_relu = \
factorization_conv_bn_scale_relu(conv_3x3_2_reduce, num_output=96, kernel_size=3, pad=1) # 96x35x35
conv_3x3_3, conv_3x3_3_bn, conv_3x3_3_scale, conv_3x3_3_relu = \
factorization_conv_bn_scale_relu(conv_3x3_2, num_output=96, kernel_size=3, pad=1) # 96x35x35
concat = L.Concat(conv_1x1, conv_1x1_2, conv_3x3, conv_3x3_3) # 384(96+96+96+96)x35x35
return pool_ave, conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu, conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, \
conv_1x1_2_relu, conv_3x3_reduce, conv_3x3_reduce_bn, conv_3x3_reduce_scale, conv_3x3_reduce_relu, conv_3x3, \
conv_3x3_bn, conv_3x3_scale, conv_3x3_relu, conv_3x3_2_reduce, conv_3x3_2_reduce_bn, conv_3x3_2_reduce_scale, \
conv_3x3_2_reduce_relu, conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, conv_3x3_2_relu, conv_3x3_3, \
conv_3x3_3_bn, conv_3x3_3_scale, conv_3x3_3_relu, concat
def reduction_v4_a(bottom):
"""
input:384x35x35
output:1024x17x17
:param bottom: bottom layer
:return: layers
"""
pool = L.Pooling(bottom, kernel_size=3, stride=2, pool=P.Pooling.MAX) # 384x17x17
conv_3x3, conv_3x3_bn, conv_3x3_scale, conv_3x3_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=384, kernel_size=3, stride=2) # 384x17x17
conv_3x3_2_reduce, conv_3x3_2_reduce_bn, conv_3x3_2_reduce_scale, conv_3x3_2_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=192, kernel_size=1) # 192x35x35
conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, conv_3x3_2_relu = \
factorization_conv_bn_scale_relu(conv_3x3_2_reduce, num_output=224, kernel_size=3, stride=1, pad=1) # 224x35x35
conv_3x3_3, conv_3x3_3_bn, conv_3x3_3_scale, conv_3x3_3_relu = \
factorization_conv_bn_scale_relu(conv_3x3_2, num_output=256, kernel_size=3, stride=2) # 256x17x17
concat = L.Concat(pool, conv_3x3, conv_3x3_3) # 1024(384+384+256)x17x17
return pool, conv_3x3, conv_3x3_bn, conv_3x3_scale, conv_3x3_relu, conv_3x3_2_reduce, conv_3x3_2_reduce_bn, \
conv_3x3_2_reduce_scale, conv_3x3_2_reduce_relu, conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, \
conv_3x3_2_relu, conv_3x3_3, conv_3x3_3_bn, conv_3x3_3_scale, conv_3x3_3_relu, concat
def inception_v4_b(bottom):
"""
input:1024x17x17
output:1024x17x17
:param bottom: bottom layer
:return: layers
"""
pool_ave = L.Pooling(bottom, kernel_size=3, stride=1, pad=1, pool=P.Pooling.AVE) # 1024x17x17
conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu = \
factorization_conv_bn_scale_relu(pool_ave, num_output=128, kernel_size=1) # 128x17x17
conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, conv_1x1_2_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=384, kernel_size=1) # 384x17x17
conv_1x7_reduce, conv_1x7_reduce_bn, conv_1x7_reduce_scale, conv_1x7_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=192, kernel_size=1) # 192x17x17
conv_1x7, conv_1x7_bn, conv_1x7_scale, conv_1x7_relu = \
factorization_conv_mxn(conv_1x7_reduce, num_output=224, kernel_h=1, kernel_w=7, pad_h=0, pad_w=3) # 224x17x17
conv_7x1, conv_7x1_bn, conv_7x1_scale, conv_7x1_relu = \
factorization_conv_mxn(conv_1x7, num_output=256, kernel_h=7, kernel_w=1, pad_h=3, pad_w=0) # 256x17x17
conv_1x7_2_reduce, conv_1x7_2_reduce_bn, conv_1x7_2_reduce_scale, conv_1x7_2_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=192, kernel_size=1) # 192x17x17
conv_1x7_2, conv_1x7_2_bn, conv_1x7_2_scale, conv_1x7_2_relu = \
factorization_conv_mxn(conv_1x7_2_reduce, num_output=192, kernel_h=1, kernel_w=7, pad_h=0, pad_w=3) # 192x17x17
conv_7x1_2, conv_7x1_2_bn, conv_7x1_2_scale, conv_7x1_2_relu = \
factorization_conv_mxn(conv_1x7_2, num_output=224, kernel_h=7, kernel_w=1, pad_h=3, pad_w=0) # 224x17x17
conv_1x7_3, conv_1x7_3_bn, conv_1x7_3_scale, conv_1x7_3_relu = \
factorization_conv_mxn(conv_7x1_2, num_output=224, kernel_h=1, kernel_w=7, pad_h=0, pad_w=3) # 224x17x17
conv_7x1_3, conv_7x1_3_bn, conv_7x1_3_scale, conv_7x1_3_relu = \
factorization_conv_mxn(conv_1x7_3, num_output=256, kernel_h=7, kernel_w=1, pad_h=3, pad_w=0) # 256x17x17
concat = L.Concat(conv_1x1, conv_1x1_2, conv_7x1, conv_7x1_3) # 1024(128+384+256+256)x17x17
return pool_ave, conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu, conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, \
conv_1x1_2_relu, conv_1x7_reduce, conv_1x7_reduce_bn, conv_1x7_reduce_scale, conv_1x7_reduce_relu, \
conv_1x7, conv_1x7_bn, conv_1x7_scale, conv_1x7_relu, conv_7x1, conv_7x1_bn, conv_7x1_scale, conv_7x1_relu, \
conv_1x7_2_reduce, conv_1x7_2_reduce_bn, conv_1x7_2_reduce_scale, conv_1x7_2_reduce_relu, conv_1x7_2, \
conv_1x7_2_bn, conv_1x7_2_scale, conv_1x7_2_relu, conv_7x1_2, conv_7x1_2_bn, conv_7x1_2_scale, \
conv_7x1_2_relu, conv_1x7_3, conv_1x7_3_bn, conv_1x7_3_scale, conv_1x7_3_relu, conv_7x1_3, conv_7x1_3_bn, \
conv_7x1_3_scale, conv_7x1_3_relu, concat
def reduction_v4_b(bottom):
"""
input:1024x17x17
output:1536x8x8
:param bottom: bottom layer
:return: layers
"""
pool = L.Pooling(bottom, kernel_size=3, stride=2, pool=P.Pooling.MAX) # 1024x8x8
conv_3x3_reduce, conv_3x3_reduce_bn, conv_3x3_reduce_scale, conv_3x3_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=192, kernel_size=1) # 192x17x17
conv_3x3, conv_3x3_bn, conv_3x3_scale, conv_3x3_relu = \
factorization_conv_bn_scale_relu(conv_3x3_reduce, num_output=192, kernel_size=3, stride=2) # 192x8x8
conv_1x7_reduce, conv_1x7_reduce_bn, conv_1x7_reduce_scale, conv_1x7_reduce_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=256, kernel_size=1) # 256x17x17
conv_1x7, conv_1x7_bn, conv_1x7_scale, conv_1x7_relu = \
factorization_conv_mxn(conv_1x7_reduce, num_output=256, kernel_h=1, kernel_w=7, pad_h=0, pad_w=3) # 256x17x17
conv_7x1, conv_7x1_bn, conv_7x1_scale, conv_7x1_relu = \
factorization_conv_mxn(conv_1x7, num_output=320, kernel_h=7, kernel_w=1, pad_h=3, pad_w=0) # 320x17x17
conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, conv_3x3_2_relu = \
factorization_conv_bn_scale_relu(conv_7x1, num_output=320, kernel_size=3, stride=2) # 320x8x8
concat = L.Concat(pool, conv_3x3, conv_3x3_2) # 1536(1024+192+320)x8x8
return pool, conv_3x3_reduce, conv_3x3_reduce_bn, conv_3x3_reduce_scale, conv_3x3_reduce_relu, conv_3x3, \
conv_3x3_bn, conv_3x3_scale, conv_3x3_relu, conv_1x7_reduce, conv_1x7_reduce_bn, conv_1x7_reduce_scale, \
conv_1x7_reduce_relu, conv_1x7, conv_1x7_bn, conv_1x7_scale, conv_1x7_relu, conv_7x1, conv_7x1_bn, \
conv_7x1_scale, conv_7x1_relu, conv_3x3_2, conv_3x3_2_bn, conv_3x3_2_scale, conv_3x3_2_relu, concat
def inception_v4_c(bottom):
"""
input:1536x8x8
output:1536x8x8
:param bottom: bottom layer
:return: layers
"""
pool_ave = L.Pooling(bottom, kernel_size=3, stride=1, pad=1, pool=P.Pooling.AVE) # 1536x8x8
conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu = \
factorization_conv_bn_scale_relu(pool_ave, num_output=256, kernel_size=1) # 256x8x8
conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, conv_1x1_2_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=256, kernel_size=1) # 256x8x8
conv_1x1_3, conv_1x1_3_bn, conv_1x1_3_scale, conv_1x1_3_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=384, kernel_size=1) # 384x8x8
conv_1x3, conv_1x3_bn, conv_1x3_scale, conv_1x3_relu = \
factorization_conv_mxn(conv_1x1_3, num_output=256, kernel_h=1, kernel_w=3, pad_h=0, pad_w=1) # 256x8x8
conv_3x1, conv_3x1_bn, conv_3x1_scale, conv_3x1_relu = \
factorization_conv_mxn(conv_1x1_3, num_output=256, kernel_h=3, kernel_w=1, pad_h=1, pad_w=0) # 256x8x8
conv_1x1_4, conv_1x1_4_bn, conv_1x1_4_scale, conv_1x1_4_relu = \
factorization_conv_bn_scale_relu(bottom, num_output=384, kernel_size=1) # 384x8x8
conv_1x3_2, conv_1x3_2_bn, conv_1x3_2_scale, conv_1x3_2_relu = \
factorization_conv_mxn(conv_1x1_4, num_output=448, kernel_h=1, kernel_w=3, pad_h=0, pad_w=1) # 448x8x8
conv_3x1_2, conv_3x1_2_bn, conv_3x1_2_scale, conv_3x1_2_relu = \
factorization_conv_mxn(conv_1x3_2, num_output=512, kernel_h=3, kernel_w=1, pad_h=1, pad_w=0) # 512x8x8
conv_1x3_3, conv_1x3_3_bn, conv_1x3_3_scale, conv_1x3_3_relu = \
factorization_conv_mxn(conv_3x1_2, num_output=256, kernel_h=1, kernel_w=3, pad_h=0, pad_w=1) # 256x8x8
conv_3x1_3, conv_3x1_3_bn, conv_3x1_3_scale, conv_3x1_3_relu = \
factorization_conv_mxn(conv_3x1_2, num_output=256, kernel_h=3, kernel_w=1, pad_h=1, pad_w=0) # 256x8x8
concat = L.Concat(conv_1x1, conv_1x1_2, conv_1x3, conv_3x1, conv_1x3_3,
conv_3x1_3) # 1536(256+256+256+256+256+256)x17x17
return pool_ave, conv_1x1, conv_1x1_bn, conv_1x1_scale, conv_1x1_relu, conv_1x1_2, conv_1x1_2_bn, conv_1x1_2_scale, \
conv_1x1_2_relu, conv_1x1_3, conv_1x1_3_bn, conv_1x1_3_scale, conv_1x1_3_relu, conv_1x3, conv_1x3_bn, \
conv_1x3_scale, conv_1x3_relu, conv_3x1, conv_3x1_bn, conv_3x1_scale, conv_3x1_relu, conv_1x1_4, \
conv_1x1_4_bn, conv_1x1_4_scale, conv_1x1_4_relu, conv_1x3_2, conv_1x3_2_bn, conv_1x3_2_scale, \
conv_1x3_2_relu, conv_3x1_2, conv_3x1_2_bn, conv_3x1_2_scale, conv_3x1_2_relu, conv_1x3_3, conv_1x3_3_bn, \
conv_1x3_3_scale, conv_1x3_3_relu, conv_3x1_3, conv_3x1_3_bn, conv_3x1_3_scale, conv_3x1_3_relu, concat
string_a = 'n.inception_a(order)_pool_ave, n.inception_a(order)_1x1, n.inception_a(order)_1x1_bn, n.inception_a(order)_1x1_scale, \
n.inception_a(order)_1x1_relu, n.inception_a(order)_1x1_2, n.inception_a(order)_1x1_2_bn, n.inception_a(order)_1x1_2_scale, \
n.inception_a(order)_1x1_2_relu, n.inception_a(order)_3x3_reduce, n.inception_a(order)_3x3_reduce_bn, \
n.inception_a(order)_3x3_reduce_scale, n.inception_a(order)_3x3_reduce_relu, n.inception_a(order)_3x3, \
n.inception_a(order)_3x3_bn, n.inception_a(order)_3x3_scale, n.inception_a(order)_3x3_relu, n.inception_a(order)_3x3_2_reduce, \
n.inception_a(order)_3x3_2_reduce_bn, n.inception_a(order)_3x3_2_reduce_scale, n.inception_a(order)_3x3_2_reduce_relu, \
n.inception_a(order)_3x3_2, n.inception_a(order)_3x3_2_bn, n.inception_a(order)_3x3_2_scale, n.inception_a(order)_3x3_2_relu, \
n.inception_a(order)_3x3_3, n.inception_a(order)_3x3_3_bn, n.inception_a(order)_3x3_3_scale, n.inception_a(order)_3x3_3_relu, \
n.inception_a(order)_concat = \
inception_v4_a(bottom)'
string_b = 'n.inception_b(order)_pool_ave, n.inception_b(order)_1x1, n.inception_b(order)_1x1_bn, n.inception_b(order)_1x1_scale, \
n.inception_b(order)_1x1_relu, n.inception_b(order)_1x1_2, n.inception_b(order)_1x1_2_bn, n.inception_b(order)_1x1_2_scale, \
n.inception_b(order)_1x1_2_relu, n.inception_b(order)_1x7_reduce, n.inception_b(order)_1x7_reduce_bn, n.inception_b(order)_1x7_reduce_scale, \
n.inception_b(order)_1x7_reduce_relu, n.inception_b(order)_1x7, n.inception_b(order)_1x7_bn, n.inception_b(order)_1x7_scale, \
n.inception_b(order)_1x7_relu, n.inception_b(order)_7x1, n.inception_b(order)_7x1_bn, n.inception_b(order)_7x1_scale, n.inception_b(order)_7x1_relu, \
n.inception_b(order)_1x7_2_reduce, n.inception_b(order)_1x7_2_reduce_bn, n.inception_b(order)_1x7_2_reduce_scale, \
n.inception_b(order)_1x7_2_reduce_relu, n.inception_b(order)_1x7_2, n.inception_b(order)_1x7_2_bn, n.inception_b(order)_1x7_2_scale,\
n.inception_b(order)_1x7_2_relu, n.inception_b(order)_7x1_2, n.inception_b(order)_7x1_2_bn, n.inception_b(order)_7x1_2_scale, \
n.inception_b(order)_7x1_2_relu, n.inception_b(order)_1x7_3, n.inception_b(order)_1x7_3_bn, n.inception_b(order)_1x7_3_scale, \
n.inception_b(order)_1x7_3_relu, n.inception_b(order)_7x1_3, n.inception_b(order)_7x1_3_bn, n.inception_b(order)_7x1_3_scale, \
n.inception_b(order)_7x1_3_relu, n.inception_b(order)_concat = \
inception_v4_b(bottom)'
string_c = 'n.inception_c(order)_pool_ave, n.inception_c(order)_1x1, n.inception_c(order)_1x1_bn, n.inception_c(order)_1x1_scale, \
n.inception_c(order)_1x1_relu, n.inception_c(order)_1x1_2, n.inception_c(order)_1x1_2_bn, n.inception_c(order)_1x1_2_scale, \
n.inception_c(order)_1x1_2_relu, n.inception_c(order)_1x1_3, n.inception_c(order)_1x1_3_bn, n.inception_c(order)_1x1_3_scale, \
n.inception_c(order)_1x1_3_relu, n.inception_c(order)_1x3, n.inception_c(order)_1x3_bn, n.inception_c(order)_1x3_scale, \
n.inception_c(order)_1x3_relu, n.inception_c(order)_3x1, n.inception_c(order)_3x1_bn, n.inception_c(order)_3x1_scale, \
n.inception_c(order)_3x1_relu, n.inception_c(order)_1x1_4, n.inception_c(order)_1x1_4_bn, n.inception_c(order)_1x1_4_scale, \
n.inception_c(order)_1x1_4_relu, n.inception_c(order)_1x3_2, n.inception_c(order)_1x3_2_bn, n.inception_c(order)_1x3_2_scale, \
n.inception_c(order)_1x3_2_relu, n.inception_c(order)_3x1_2, n.inception_c(order)_3x1_2_bn, n.inception_c(order)_3x1_2_scale, \
n.inception_c(order)_3x1_2_relu, n.inception_c(order)_1x3_3, n.inception_c(order)_1x3_3_bn, n.inception_c(order)_1x3_3_scale, \
n.inception_c(order)_1x3_3_relu, n.inception_c(order)_3x1_3, n.inception_c(order)_3x1_3_bn, n.inception_c(order)_3x1_3_scale, \
n.inception_c(order)_3x1_3_relu, n.inception_c(order)_concat = \
inception_v4_c(bottom)'
class InceptionV4(object):
def __init__(self, lmdb_train, lmdb_test, num_output):
self.train_data = lmdb_train
self.test_data = lmdb_test
self.classifier_num = num_output
def inception_v4_proto(self, batch_size, phase='TRAIN'):
n = caffe.NetSpec()
if phase == 'TRAIN':
source_data = self.train_data
mirror = True
else:
source_data = self.test_data
mirror = False
n.data, n.label = L.Data(source=source_data, backend=P.Data.LMDB, batch_size=batch_size, ntop=2,
transform_param=dict(crop_size=299, mean_value=[104, 117, 123], mirror=mirror))
# stem
n.conv1_3x3_s2, n.conv1_3x3_s2_bn, n.conv1_3x3_s2_scale, n.conv1_3x3_s2_relu, n.conv2_3x3_s1, n.conv2_3x3_s1_bn, \
n.conv2_3x3_s1_scale, n.conv2_3x3_s1_relu, n.conv3_3x3_s1, n.conv3_3x3_s1_bn, n.conv3_3x3_s1_scale, n.conv3_3x3_s1_relu, \
n.inception_stem1_3x3_s2, n.inception_stem1_3x3_s2_bn, n.inception_stem1_3x3_s2_scale, n.inception_stem1_3x3_s2_relu, \
n.inception_stem1_pool, n.inception_stem1, n.inception_stem2_3x3_reduce, n.inception_stem2_3x3_reduce_bn, \
n.inception_stem2_3x3_reduce_scale, n.inception_stem2_3x3_reduce_relu, n.inception_stem2_3x3, \
n.inception_stem2_3x3_bn, n.inception_stem2_3x3_scale, n.inception_stem2_3x3_relu, n.inception_stem2_7x1_reduce, \
n.inception_stem2_7x1_reduce_bn, n.inception_stem2_7x1_reduce_scale, n.inception_stem2_7x1_reduce_relu, \
n.inception_stem2_7x1, n.inception_stem2_7x1_bn, n.inception_stem2_7x1_scale, n.inception_stem2_7x1_relu, \
n.inception_stem2_1x7, n.inception_stem2_1x7_bn, n.inception_stem2_1x7_scale, n.inception_stem2_1x7_relu, \
n.inception_stem2_3x3_2, n.inception_stem2_3x3_2_bn, n.inception_stem2_3x3_2_scale, n.inception_stem2_3x3_2_relu, \
n.inception_stem2, n.inception_stem3_3x3_s2, n.inception_stem3_3x3_s2_bn, n.inception_stem3_3x3_s2_scale, \
n.inception_stem3_3x3_s2_relu, n.inception_stem3_pool, n.inception_stem3 = \
stem_v4_299x299(n.data) # 384x35x35
# 4 x inception_a
for i in xrange(4):
if i == 0:
bottom = 'n.inception_stem3'
else:
bottom = 'n.inception_a(order)_concat'.replace('(order)', str(i))
exec (string_a.replace('(order)', str(i + 1)).replace('bottom', bottom)) # 384x35x35
# reduction_v4_a
n.reduction_a_pool, n.reduction_a_3x3, n.reduction_a_3x3_bn, n.reduction_a_3x3_scale, n.reduction_a_3x3_relu, \
n.reduction_a_3x3_2_reduce, n.reduction_a_3x3_2_reduce_bn, n.reduction_a_3x3_2_reduce_scale, \
n.reduction_a_3x3_2_reduce_relu, n.reduction_a_3x3_2, n.reduction_a_3x3_2_bn, n.reduction_a_3x3_2_scale, \
n.reduction_a_3x3_2_relu, n.reduction_a_3x3_3, n.reduction_a_3x3_3_bn, n.reduction_a_3x3_3_scale, \
n.reduction_a_3x3_3_relu, n.reduction_a_concat = \
reduction_v4_a(n.inception_a4_concat) # 1024x17x17
# 7 x inception_b
for i in xrange(7):
if i == 0:
bottom = 'n.reduction_a_concat'
else:
bottom = 'n.inception_b(order)_concat'.replace('(order)', str(i))
exec (string_b.replace('(order)', str(i + 1)).replace('bottom', bottom)) # 1024x17x17
# reduction_v4_b
n.reduction_b_pool, n.reduction_b_3x3_reduce, n.reduction_b_3x3_reduce_bn, n.reduction_b_3x3_reduce_scale, \
n.reduction_b_3x3_reduce_relu, n.reduction_b_3x3, n.reduction_b_3x3_bn, n.reduction_b_3x3_scale, n.reduction_b_3x3_relu, \
n.reduction_b_1x7_reduce, n.reduction_b_1x7_reduce_bn, n.reduction_b_1x7_reduce_scale, n.reduction_b_1x7_reduce_relu, \
n.reduction_b_1x7, n.reduction_b_1x7_bn, n.reduction_b_1x7_scale, n.reduction_b_1x7_relu, n.reduction_b_7x1, n.reduction_b_7x1_bn, \
n.reduction_b_7x1_scale, n.reduction_b_7x1_relu, n.reduction_b_3x3_2, n.reduction_b_3x3_2_bn, n.reduction_b_3x3_2_scale, \
n.reduction_b_3x3_2_relu, n.reduction_b_concat = \
reduction_v4_b(n.inception_b7_concat) # 1536x8x8
# 3 x inception_c
for i in xrange(3):
if i == 0:
bottom = 'n.reduction_b_concat'
else:
bottom = 'n.inception_c(order)_concat'.replace('(order)', str(i))
exec (string_c.replace('(order)', str(i + 1)).replace('bottom', bottom)) # 1536x8x8
n.pool_8x8_s1 = L.Pooling(n.inception_c3_concat, pool=P.Pooling.AVE, global_pooling=True) # 1536x1x1
n.pool_8x8_s1_drop = L.Dropout(n.pool_8x8_s1, dropout_param=dict(dropout_ratio=0.2))
n.classifier = L.InnerProduct(n.pool_8x8_s1_drop, num_output=self.classifier_num,
param=[dict(lr_mult=1, decay_mult=1), dict(lr_mult=2, decay_mult=0)],
weight_filler=dict(type='xavier'),
bias_filler=dict(type='constant', value=0))
n.loss = L.SoftmaxWithLoss(n.classifier, n.label)
if phase == 'TRAIN':
pass
else:
n.accuracy_top1 = L.Accuracy(n.classifier, n.label, include=dict(phase=1))
n.accuracy_top5 = L.Accuracy(n.classifier, n.label, include=dict(phase=1),
accuracy_param=dict(top_k=5))
return n.to_proto()